Weighing-machine.



No. 628,894. Patented July Il. |899. J. D. DE P. A. OUTCALT.

WEIGHINGMACHINE.

lApplicatiou filed June G. 1898.

1u: uonms Perins ca. PuoroMmo.. wnsmnmoN. D. c.

`N0. 628,894. Patented July Il, |899. J. G. D. DE P. A. OUTCALT.

WEIGHING MACHINE.

(Application filed June 6. 1898.

8 Sheets-Sheet 2 6 l. 5 J .l 6

TH: Noam: Pinus co. PHo'roLlTNo.. wAsmNuToN. u c.

i No. 628,894. Patented July n, |899. J. & n. DE P. A. ouTcALT.

WEIGHING MACHINE.

(Applicgtion filed June 6, 1898.!

(No Modem 8 Shouts-Sheet 3.

I i y l 1 s f i s l f I s I g i k No. 628,894. Patented July Il, |899.4

. J. &. D. DE P. A. UUTCALT.

WEIGHIN MACHINE.

(Applieation led June 6, 1898, @No Modem y 8 Sheets-Sheet 4,

mags.

'ma mums PETERS ca4 moYaLxTnm wAsmnrfrou. ac.

No. 628,894. Patented July Il, |899'.

J. a n. DE P. A. ou'rcALT.

WEIGHING MACHINE.

(Application filed .funs 6, 1898.; (No Model.) 8 Sheets-Sheet 5.

/ 1 /fl f ffma cams Pzrzns co. PHoYaLxTHo.. wAsmNuToN. u. l;v

No. 628,894. Patented my n, |899.

J. a n. DE P. A. ouTcALT.

WEIGHING MACHINE.

(Application med June 6. 1898.. (N0 M0601.) y 8 Sheets-Shui 6.

zoe

No. 628,894. Patented July II, |899. J. &. D. DE P. A. OUTCALT.

WEIGHING MACHINE.

(Application filed June 6. 1898.1 (N0 'MMU 8 Sheets-Sheet 7.

Tg: Noam Pz'rens co, PHOTO-urna., wAsmNGToN, D. c.

N0. 628,894. Patented July Il, |899.

. J. &. D. DE lP. A. OUTCALT.

WEIGHING MACHINE.

(Application led June 6. 1898.' Molodel.) 8 shanty-Sheet 8.

Wigessos 6 )3 Jl llomeys,

UNITED STATES JOHN O'UTOAlQ'l AND DAVID DE PYSTER AOKER OUTOALT,

WOOD, NEW JERSEY.

PATENT OEEICE.

OF SPOTS- welcHlNe-MACHINE.

SPECIFICATION forming part of Letters Patent No. 628,894, dated July 11, 1899.

Application filed June 6, 1898. Serial N0. 682,710. (No model.)

Be it known that we, JOHN OUTCALT and Davin DE PYSTER ACKER OU'rcAL'r,citizens of the United States, residing at. Spotswood, in the county of Middlesex and State of New Jersey, have invented a new and useful feighing-Machine, of which the following is a specification.

This invention relates to machines for automatically weighing and delivering various kinds of materials in predetermined amounts, and is especially designed for use in connection with weighing machines of the type shown in our former pate-nt, No. 511,647.

The present invention contemplates a machine operating somewhat on the principle of the machine covered by our pending application, Serial No. 609,091, and has primarily for its object the provision of suitable means for delivering to a suitable weighing-receptacle the bulk or main load of the material to be weighed, in combination with means for completing the amount to be weighed in a small stream. In this connection the invenn tion also contemplates suitable provision for regulating the amount delivered in bulk, according to the variations in density of the various materials, and for regulating the speed of the feeding mechanism by provid ing for the acceleration or retarding of the 'flow of material.

Afurther object of the invention is to provide suitable means for accurately controlling the valves of the feeding mechanism through the medium of improved electrical controlling devices and also making provision for preventing the discharge of an overu loaded bucket or receptacle into the package or receiver for the material being weighed.

A still further object of the invention is to improve the current-reversing mechanism.

for the conLrolling-solenoid disclosed in our pendingapplication hereinbefore referred to, while also providing suitable means forlocking' or stopping the operation of the machine when the current supplied rises above or falls below certain prescribed limits or for locku ing or stopping the machine aftera predetermined number of discharges or weighings have been made.

The several objects specified are attained by means of the improved mechanism hereinafter more fully described, illustrated, and claimed, and the preferred manner of adapting our several improvements for use in connection with automaticallyoperating weighing-machines is illustrated in the accompanying drawings, in which- Figure 1 is a side elevation of a complete weighing-machine Vembodying the improvements contemplated bythe present invention. Fig. 2 is a front view of the construction shown in Fig. 1. Fig. 3 is a detail sec tional view on the line 3 3 of Fig. 2, showing the preferred manner of mounting the current-reversing circuit-closer in connection with the scales. Fig. 4 is an enlarged verti cal sectional view of the automatic feeder or feeding mechanism. Fig. 5 is a detail sectional view on the line 5 5 of Fig. 4i, showing the laterally movable cut oif plate for the contracted discharge-neck at the lower end of the drip-chamber. Fig. 6 is an enlarged elevation of the current-reversing circuitcloser shown in Fig. 3., Fig. lis au end view of the circuit-closing instrument shown in Fig. 6 and illustrating in full and dotted lines diilerent positions of the controllingmagnet carried bythe axle of the scalebeam of the scales. Fig. 8 is a plan view of the current-reversing relay instrument used in connection with the circuit-closing device shown in Figs. 6 and 7 when the current employed is of high eleetromotive force. Fig. 9 is a plan view of the relay instrument shown in Fig. S. Figs. 10 and 1l are detail elevations showing separate modifications of the current"reversing circuit-closer shown in Figs. (i and 7. Fig. 12 is a diagrammatic View showing the circuit-wire connections with the controlling-solenoids for the controlling-lever of the feeding mechanism and with the circuit-closing and relay instruments when these instruments are employed by themselves. Figs. 13, 11i, and 15 are enlarged detail elevations and sectional views of the overloaddischarge attachment for the weighing-receptacle. Fig. 16 is a view similar to Fig. 3, showing the extra circuit-closing instrument required for use in connection with the overload-discharge attachment. Fig. 17 is a fragmentary view of the construction IOO shown in Fig. 16, showing the relative disposition of the two controlling-magnets, one for the current-reversing circuit-closer and the other for the circuit-closet' of the circuit for the overload-discharge attachment.. Fig.18 is an enlarged plait view of the current-controlling and cut-off instruments, respectively, for stopping the action of the machine when the current rises above or falls below a predetermined degree and for cutting out the circuit connections with the solenoid which opens the valves of the feeding mechanism until it is desired to again start the machine. Fig. 1.() is a diagrammatic view showing the circuit connections when only a short local circuit is employed for energizing the releasingmagnetofthe overload-dischargeattachment. Fig. 2O is a diagrammatic view showing thc circuit connections and the circuit cut-olf or locking instrument which is used in connection with the current-reversing devices and the releasing-magnet for the overloatl-discharge attachment. Fig. 21 is a complete diagrammatic view showing t he proper circuit connections when the potential-indicator or current-controlling device is interposed in the '22 22 of Fig. 1S.

circuit and used in connection with the circttit cut-off or locking instrument, the currentre.'ersing devices,and the releasing-magnet for the overload-discharge attachment. Fig. 22 is a detail sectional view on the line Figs. 23, 21, and 25 are respectively'a top plan view, front view, and Vertical sectional view of a modified coitstruction of feeder in connection with a sin gle drip-stream chamber. Fig. 2G is a vertical sectional view, partly in elevation, of another modification of the feeder with a single drip-stream chamber. Figs. 27 and 28 are respectively a perspective view and a vertical sectional View of a modilied forni of feeder, showing modified means for varying the capacityof the bulk-chamber and omitting the use ot' a drip-chamber. Fig. 20 is a diagrammatic view showing the circuit-wire connections when the current-reversing circuitcloser is used alone in connection with the solenoids 112 and113.

Referringr to the accompanying drawings, the numeral 1 designates a scale of any approved type having the usual scale-beam il, on which is arranged the sliding weight 3, adapted to be set to any desired point, according to the desired quantity of matter which is to be weighed by the weighitig-receptacle used in connection with the scale. ln the present invention the operating parts of the scales at the point of connection between the scale-bean] and the usual check-rod 4, arranged within the tubular standard 5 of the scales and connected with the platform devices, are designed to support the weighingreceptacle bracket 6, to one end of which receptacle bracket is suitably fastened the weighing receptacle or case 7. The other end of the bracket ti has extended therefrom an auxiliary beam S, lying above the main weighing-beam 7 of the scales and accommodating thereon a sliding counterbalance-weight 10, the object of which weight is to overcome the friction at the ends of the ordinary7 check-rod of the scales. lt has been found that when a load Or weight like that of the weighing receptacle or case 7, with the parts carried thereby, is supported at the outer edge or end of the bracket ti, the friction imposed upon the joints of the scale parts before referred to seriously affects the accuracy ofthe scales; but by connt-erbalatming the weight of the empty weighing-receptable and the parts carried thereby through the medium of thc auxiliary beam S and the weight 10 thereon the friction is reduced sufficiently so as not to impair the accuracy of the scales.

The weighing receptacle or case 7 is illustrated as being of the same type as t he weighing-rt-ceptacle disclosed in our fortner patent and pending aplilieation herein referred to, and it is of a circular shape, with an open tipper side, so as to expose at the top thereof the rerolring-compariment weighing-wheel 11, while the lower side of the weighing receptacle or case is contracted to form a bottom discharge spout 12. This dischargespout 12 at the lower side of the weighing rcceptacle or case 7 opens into a stationary discharge-spout 13, suitably fastened to a platform 1t, supported by the brackets 15, fitted to an uprightI frame 1G, which frame provides for supporting t he working partsof t he feeder or feeding mechanism independently of the weighingreceptacle, and it will be understood that the discharge-spout 13 provides for direc'ing the weighed material into the package or receiver for the same. The revolving compartment rt'eighing wheel 11 within the receptacle 7 is an ordinary construction, and essentially comprises a series of radially-ext'ending and regularly-sparcd cttrved buckets 17, traveling in close proximity to the rim of the receptacle and providing for ln'ilding.;` the quantity of matter to be weighed at one side of the axis of theI wheel, so that when the wheel is released and allowed to rotate the loaded compartment between a pair of buckets is relieved of its contents, which is discharged through the neck and spout 12 12v.

The weighing-wheel 11 is mounted on a transverse axle journaled in tliametrically opposite sides of the receptacle or case 7, and to provide for locking the said wheel against rotation and releasing the saine at the proper time the wheel-axle 1S has secured fast on one end thereof, exterior to the weighing receptacle or case, a peripherally-notchcd stop-disk 1t), the notches of said disk being adapted to be engaged by the free end of the gravity latch-arm 20, pivoted at its other end, as at 2l, at one side of the weighing receptacle or case 7. Normally the latch-arm 2t) engages with a notch'of the disk 1t) to prevent the wheel 11 from rotating while the exposed compartmentat the top of the receptacle is IIO being loaded, and to provide for" the disengagement of the said latch-arm and stop-disk there is employed a release-lever 22, pivoted intermediate of its ends, as at 23, to the same side of the weighing receptacle or case as the said latch-arm. The said latch-arm and the releasing-lever 22 are sufficiently wide so as to project beyond the plane of the disk 19, and the inner end of the lever normally rests lightly beneath the free end of the latcharm 20, this light pressure of the releasinglever being secured by means of a stop-spring 24, secured fast at one end to the receptacle 7 and having its free end bearing on the lever 22 near its pivot.

The outer end of the vrelease-lever 22 projects slightly beyond the rim of the receptacle 7 and carries and has pivoted at one side of its projecting end a pivotal cam-plate 25, having a flat upper side and a round lower side, said cam-plate being of an approximate segmentalshape. The inner end of said pivotal cam-plate 25 normally bears under and against a stop-plate 26, secured on top of the release-lever 22, near the ou ter end thereof, and at the same point the saidv lever 22 has secured thereto one end of a pressure-spring 27, the free end of which spring bears on the flat upper side of the cam-plate 25, beyond the pivot thereof, to provide for normally holding theinnerend of the cam-plate against the stop-plate 26 and the outerend of the camplate in proper position to be engaged by the upper horizontally-disposed lnemberof the bell-cran k trip-lever 28. The bell-crank triplever 2S is pivotally supported at its angle, as at 29, on the hanger-bracket 30, fastened to the upright supporting-frame 16 for the feeding' mechanism, and the lower pendent portion of said trip-lever has connected thereto one end of a short connecting-link 31, the other end of which link pivotally engages with the upright controlling-lever 32. rl.`his controlling-lever is conveniently supported intermediate its ends, as at 33, by the stationary platform 14 and is oscillated on its pivot through the medium of the electricallycontrolled and automatically-operating mechanism to be hereinafter more particularly referred to, said lever also having connections for controlling the valves of the feeder or feeding mechanism used in connection with the weighing-receptacle.

As already explained, the latch-arm 2O normally engages with a notch of the stop-disk 19, and thereby locks the weighing-wheel 11 against rotation; but on the outward movement of the controlling-lever 32 in a direction awayfrom the weighing-receptacle 7 the said lever, through the medium ofthe devices to be hereinafter described, cuts oif the supply of material to the weighing-wheel 11 and simultaneously oscillates the trip-lever 28 in a direction which causes the upper horizontally-disposed member of said lever to engage against the outer projecting end of the Cam-plate 25, thereby depressing the end of the release-lever 22 carrying the cam-plate and elevating the opposite or inner end. The elevation of the innerend of the release-lever 22 disengages the latch-arm 2O from the stopdisk 19, and thereby permits the Weighingwheel 11 to rotate within the receptacle and discharge its loaded compartment into the discharge-spout 13. I-n this movement of part-s the engaging portion of the trip-lever 28 passes over the point of the cam-plate 25, thereby permitting the release-lever and the latch-arm to resume their normal position, and it will be observed that on the inward movement of the controlling-lever 82 toward the weighing-receptacle the horizontally-disposed member of the trip-lever 28 passes the projecting end of the cam-plate 25 by causing this plate to rock on its pivot against the pressure of the spring 27.

Arranged directly above the weighing-receptacle 7 in vertical alinement therewith is e the feeder or feeding mechanism, which provides means for automatically delivering the load of material into the weighingwheel within the weighing-receptacle, and while this feeder involves separated chambers or compartments the entire body, of the same, including the different parts thereof, will be referred to under the general term ofa hopper-body, which is designated by the numeral 34. This hopper-body 34 has no contact with the weighing-receptacle or any part of the scales supporting the said receptacle and is held stationary in its operative position above-the weighing-receptacle by means of suitable horizontal supporting-arms 35, fastened thereto and to the upright frame 16, as plainly illustrated in Fig. l of the drawings.

The hopper or hopper-body 3i, with its several chambers and compartments, provides means for delivering to the weighing-receptacle dissimilar materials-such as bean and ground coffee, split peas, granulated sugar, and, in fact, any materials that can be handled in buik and which it is desired to weigh in predeterminedamounts. Theprincipalform of the hopper or hopper-body is illustrated in Figs. 1, 2, and 4 of the drawings, and referring particularly to the sectional View of the hopper in Fig. 4 it will be observed that the said hopper is formed with the main upright bulk-chamber 36, which bulli-chamber is designed to hold the main load or bulk of the material to be weighed. The upright bulkchamber 36 is entirely inclosed and confined within the side plates 37 and the front and rear walls 38 and 39, respectively, which are suitably joined together at their meeting edges; but the present invention contemplates mea'ns for varying the capacity or size of said chamber, and to provide for this the opposite side plates of the bulk chamber are provided with front wing extensions 40, which are connected at their eXtreme outer edges by the inclined portion of the front wall 38, and inclose therebetween an extended space, within which are arranged for adjust- IOO IIO

IIS

ment a pair of regulating-plates ll and l2, respectively. The plates yll andare arranged substantially in an upright position, and the outermost of said plates stl is hinged at its lower edge, as at 43, tothe inclined portion of the front wall 3S, connecting the wing extensions l0, while the innermost plate l2 ishinged at its upper edge, as at ll, to the upper edge of the plate al, as plainly illustrated in Fig. 4 of the drawings. The two regulating-plates 4l and 2, which have a play within the front extension of the bulk-chamber 3G, are deother or in unison, and to make provision for these adjustments an adjusting-screw l5 is employed for use in connection with the plate ll andan adjusting-screw l@ for use in connection with the plate 4-2. The adjustingserew 45 is mounted in a threaded bea ring 7,

formed in the said inclined portion ot' the front wall 3S, while the screw le is mounted in a similar bearing 4S, formed in the ontercease-i' tion. The wing-plates 53 of the upper cutott valve 52are provided with short arm ex* tensions 5th, which are pivoted, as at 5l, to opposite sides ol' the hopper-body, and these arm extensions 5th have connected to their extremities the upper ends of the connecting-rods 55, arranged at opposite sides of the hopper-body and pivoted at their lower ends to the side .wing plates or arms 5U ol the lower segmental eut-ol-valve plate 57, which connects the side wings 5G at one end thereof.

, The side wings 5G for the lower cut-oil valve signed to be adjusted independently of each I 57 loosely embrace opposite sides of the bulkchamber 3G at the lower end thereof and are pivoted, as at 5S, to suitable points of support at opposite sides of the hopper-body, and at its pivotal support the lower cut-oit valve has rigidly connected therewith one end of a link bar 59, the other end of which bar is pivotally connected to one end of an adjusting-rod (50,l

3 the other end of which adjusting-rod is pivmost plate ll, so it will be observed that by adjusting the screw 45 both of the plates ll and 42 swing in unison on the hinge lb, while the adjustment of the screw (5 simply provides for an independent adjustment of the innermost regulating-plate l2 toward or away from the rear wall 3S) of the bulk-chamber, thereby providing for the contraction or enlargement of said chamber, according to the quantity of material to be weighed; but under all conditions the said bink-chamber is designed to hold a quanti-ty of the material to be weighed less than the amount desired, so that the loading of the weighing-receptacle can be completed by means of a small dripstream, as will be hereinafter more particularly referred to.

rlhe upright bulk-chamber 3o' of the hopper-body is provided with a separate valved supply-compartment lf), which is open at its upper end to receive from a suitable source of supply7 the material to be weighed. The said supply-eompartment 49 is partitioned olf within the Lipper end of the bulk-chamber 3U and is provided at its lower end with an inclined bottom deileeting-plate 50 and with a bottom feed-opening 5l, communicating with the bulk-chamber Se', to provide for the pasopening 5l is designed to be covered and uncovered by a segmental swingiugcnt-oil valve 52, which when in its lowered position rests against the lower edge ot` the bottom deeeting-plate 50 and is provided with the opposite wing-plates 53. The side wing-plates 53 of the upper segmental eut-oil valve 5'3 for the supply-eompartment loosely embrace j the opposite sides of said compartment, and i by reason of this compartment being partitioned oit within the upper end ot' the bulkchamber 3U an interior valve housing or space 5l is provided within the upper part of the bulk-chamber to receive the said upper cutoff valve when in its elevated or open posiotally connected at (il to the controlling-lever 32. By reason ot' the connections (50 and 5U between the controlling-lever 32 and the lower cut-oil valve for the bulk-chamber it will be sides of their pivotal supports the lower cut- 1 oit' valve will be opened simultaneously with the closing ofthe uppercut-olt valve, and vice versa, so that the bulk-chamber will receive its supply ol material from the supply-compartment lf) when the lower cut-oil valve is closed and willhave its supplyof material ent ott by the ripper cut-olt` valve when the lower cut-oft valve is open. Said lowereut-oll' valve 57 is arranged exterior to the bulk-chamber 3G and works over the lower curved portion of the front wall of said chamber and is designed to cover and uncover the bottom discharge-opening (52, formed in the lower end of the lnxlk-chamber in front of the inclined bottom detlecting-plate Gil, which overhangs the weighing-wheel ll of the weighing-receptacle and serves to properly deflect the bulk or main load ot' material from the bulk-chamber 36 into the exposed compartment of the weighingwheel when the lower cut-otl` valve sage ot the material in the compartment t9 into said bulk-chamber, and the said feed- 57 is open.

lVhile there is an interval in the motion ol the valves 52 and 57 when the same will be partly open, still this does not in any way aifeet the accuracy of the mechanism, for the reason that at all times the bulk-chamber is designed to hold a quantityot' material to be weighed less than the amount desired; also the motions ol the two valves 5;? and 57 are so timed and such valves are spaced apart a sufficient distance that the lower valve 57 will close quicker than any material (which may pass out of the compartment l) when the Valve 52 begins to open) could flow the distance between the two valves.

The hopper-body 3i is further provided with an independent drip-chamber Gl, ar-

lOO

ranged at one side ot the bulli-chamber 36 and separate therefrom, so as to hold an independent body ofmatcrial which is delivered in a light drip-stream to the weighing-receptacle during the time the bulk of material is being discharged from the bulk-chamber into said receptacle. Theindependentdrip-chamber 64 is also disposed in an upright position and is provided with an open upper end, which may or may not communicate with the supplycompartmenttt) at the top ofthe bulk chamber 36 and which is designed to receive therein the independent body of material which is to be fed in a drip-stream to the weighing-receptacle, and the said upright drip-chamber 64 is provided at its lower end with a contracted discharge-neck 65, lying in a vertical plane directly above the weighingwheel 1l and having at its lower end an inclined valve-seat- 66, against which is designed to work a circular laterally-movable cut-ott plate 67, secured to one end of a horizontal oscillatory bowed or angled valve-lever 68, pivotally mounted intermediate of its ends, as at 69, on a fixed support 70 and having pivotally connected to its extremity opposite the valve-plate 67 a coupling or connecting arm 7l, having an adjustable clamp connec tion 72 with the adjusting-rod 60 for the upper and lower cut-oi valve for the bulk-chamber. The coupling or connecting arm connection 71 between the rod 60 and the lever 68 of the valve 67 provides means whereby said valve will operate in unison with the valves 52 and 57, and by reason of pivotally mounting the lever 68 at a point between its ends the inward movement of the controllinglever 32 toward the weighilig-receptacle will provide for simultaneouslyopening the lower cut-ott valve 57 for the bulk-chamber and the valve 67 for the drip-chamber, while the reverse movement ot' the controlling-lever in an outward direction provides for the simultaneous closing ot' these valves.

By reason ot operating the several cut-off valves in the manner described it will be observed that provision is made whereby the drip-stream is ruiming to complet-e the load at the same time the bulk of material is dropped into the weighing-receptacle, and said drip-stream will also be cut off at the same time the outlet for the bulk-chamber is closed. inasmuch as the bulk-chamber is adapted to hold a bull: of material less in amount than the required weight and which amount goes directly into the weighing-reu ceptacle at the same time the drip-stream is running to complete the load, there is uo weighing of the bulk load.

At suitable points within the drip-chamber 6l above the plane of the contracted dischargeneck are suitably supported verticallyalined adjustable column-breaking cones 73, having their apices disposed iu an upward direction and providing means for regulating or breaking the column of material, so that the same will feed oit through the neck 55 in a light drip-stream, while at a suitable point within the chamber 64 above the plane of the cones 73 is mounted a pivotal cut-off plate 74. The pivotal cut-olif plate Tet is carried by an ad justing-rod 75, extended through the sides ot' the chamber 64 and controlled manually or in any suitable manner to provide for cutting oif the vflow of material through the neck 65 when the secondary drip-chamber 76 is brought intoA play.

The secondary drip-chamber 76 is in the form of a tubeand constitutes a portion of the complete hopper-body etat one side of the main upright dripchamber 64, and said secondary drip-chamber is designed for use in connection with bean-colee or similar. material. The secondary drip-chamber 76 communicates at its upper end with the upper end of the main drip-chamber 6l through the feed-slot 77, formed in the partition-wall between the two drip-chambers at their upper ends, and said feed slot or opening provides means for permitting the supply of material to be deflected into the secondary drip-chamber 76 when the cut-off plate 74 is in its closed position and it is desired to subject the column of material formed in the drip-stream to the action of the regulating and retarding devices with which the secondary drip-chamber is equipped. The upper end of the chamber 76, which connects with the upper portion of the main drip-chamber 64, is preferably curved in a lateral direction7 so that the weight of the column of material within the top portion of the secondary drip-chamber will be upon the upper bend or angle of said chamber, while the lower end of the chamber or tube 76 is curved inwardly in a lateral directiomas at 78,and is joined to the dischargeneel; 65 of the chamber 64, so as to communicate with the interior of said neck and direct the secondary drip-stream through the neck into the weighing-wheel of the weighing receptacle. It will therefore be observed that the valve 67 controls the discharge from either of the drip-chambers 6% or 76.

In connection with the use of the secondary drip-chamber 76 it is desirable to reduce the pressure of the column of the material in the drip-stream, so that the stream of material shall be as small and light as possible when leaving the valve-opening at the lower end ot' the discharge-neck 65, and to secure this result the upper and lower yielding baiile or resisting plates 79 and 80, respectively, are employed. The upper baille or resisting plate 79 is preferably arranged within the upper bend of the chamber or tube 76 and swings from a rock-shaft 8l, journaled in suitable bearings at opposite sides of the chamber or tube, and having connected therewith a` IOO I'IO

IIS

baffle or resisting plate 79 will act to better advantage and provide for gently resisting the tendency of the column of material tofall in bulk toward the lower discharging end of the chamber or tube. Both ofthe battle or resistingplates T9 and S() yield in au outward direction under the pressure ot the column ot material thereagainst, and the lower ot' said plates S0 projects at its tree swinging edge into the lower discharging end portion 7S of the secondary drip chamber or tube. The said lower plate S0 is also suspended from a rock-shatt-S1, journaled in suitable bearings at opposite sides of the chamberortube, and having connected therewith a weight-arm 85, carrying` an adjustable weight SG, which provides for regulating the pressure of the plate S() against the column of material just before it passes into the discharge-neck of the main drip-chamber` (il.

Some grades oli' bean-coffee and other material will require means in addition tothe plates '75l and 80 for properly retarding the material and breaking the same up into a light: drip-streatn, and to this end the seeondary d rip-chamber is designed to receive thereina removable upright retarding worm or screw S7. The ret-arding worm or screw S7 is in the form of a con veyer-worm and extends the full length ol" the vertical portion of the chamber 76, and the lower spindle extremity S8 of said retarding' worm or screw is provided with a bearing-socket-Sfl, which receives the upper pointed end ot' the stepped bearing-screw 00, adj ustably mounted in a threaded bearing 91 at the lower end ol' the chamber 76 and projecting` into said chamber in vertical alinement with the vertical center tbereol'I to provide for properly positioning the relai-ding worm or screw within the chatnber, while at the same titne permitting' said worm or screw to be readily removed'when the character of the material being weiglwd does not require its use. The upper spindle extremity of the retarding worm or screw 87 projects through the open upper end of the secondary drip chamber or tube 70, and has itted thereto a worm-gear 92, meshing` with an adjacent worin Q3, carried b v a short wormshal't 94, journaled in a bearing-bt'acltet $15, conveniently fastened to the hopper-body at the upper end of the secondary drip chamber or tube. The short worm-shaft 0l also ca-rries a gear-wheel 9o', which may he either a friction or cog gear-wheel and is designed to be intermittently engaged by one of the gears 97 ot' the train of gearing 9S, mounted within a swinging or oscillatory gearingframe 08', pivotally hung at its upper end, as at 99, at

the top ot' the supporting-frame 1G for the' feeder or feeding mechanism., One of the wheels within the gearingframe at the pivoted end thereof forms a belt-pulley for receiving the drivingbelt 100, and provides for transmitting motion to the entire train of gearing.

The lower swinging end of the gearng-- frame 0S has pivotally connected thereto one end of a short connecting` rod or link 101, the other end of which rod or linl; is pivotally connected to the upper end of the con trollinglever 32, so that the movement of this controlling-lever will simult aneously operate the valves of the Feeder and the gearing-frame. The retarding worm or screw 87 when used in connection with the Secondary chamber or tube 7G is only in motion when the diseharging-'valves 57 and (i7 are open7 so when said valves are closed by the outward movement of the controlling-lever 32 the gearing-trame U8 is swung in a direction which carries the gear 97 out of mesh with the gear-wheel flo, thereby simultaneously stoppingl the rotation ot' said retarding worm or screw with the closingl ol the valves 57 and 67.

The intermittently -revolving retardinfbr worm or screw 8T is notintended as a lorce feed for the column ol material within the secondary drip chamber or tube; but its sole function is to provide means for properly retarding the flow of material and preventing undue acceleration thereof` so that it will discharge through the neck 05 in a small light stream.

While some grades of material will not roquire tite use of the worm or screw ST, the same will require a slight jar or vibration to start the tlow or to malte the stream continuous, and to provide for this result the secondary drip chamber or tube 70 is provided at its outer side with a fixed or rigid jarringlug 102, adapted to be engaged by a vibrating hammer 103, which hammer is preferably carried by the vibrating armature 104- ot' an electromagnet 105, included in a suitable push-button or equivalent circuit, which can be operated at any moment desired to provide for the necessary jarring,` or vibrating of the walls of the chamber or tube 7U, whenever necessary, although it will be understood that the hammer 103` could be vibratzcd by equivalent mechanical means. It will of course be understood in connection with the operation of the hammer 103 that the same would be brought iutoplay duringthe period that the dischargi11g-valves of the feeder are open.

'llo insure the breaking up ot' the column of material delivered from the dischargeneck G5, so that the dripstreatn will be very small and light, a separate inclined columnbreaking plate 105 is arranged directly beneath and in close proximity to the dischargeopeniug of said net-k 05. The lateral movement of the valve UT permits the positioning of the plate 100 very close to the dischargeopening ol" the neck 05, and said plate is pivotally mounted between the horizontallyad justable vertical supports 107, thelowerends of which supports have adjustable clampeonnections 10S with the vertically-adjustable horizontal bars 100, arranged atopposite sides of the weighingwheel 11 and having IOO IIO

IZO

adjustable clamp connections at their upper ends with the short vertically-disposed supporting-posts 111, secured to the weighing receptacle or case at opposite sides thereof. The construction described provides means whereby the column-breaking plate 106 is capable of an axial, vertical, and horizontal adjustment, so that it can be properly positioned according to the character of the material being weighed. Such adjustment of the column-tweaking plate is similar to the adjustment of the corresponding plate disclosed in our pending application hereinbefore referred to.

The movement of the controlling-lever 32 is accomplished automatically through the medium of the opposite alined solenoids 112 and 113, the solenoid 112 when energized providing for the movement of the'lever 2 in a direction which causes the discharge-Valves 57 and 67 to close, while the other solenoid 113 provides for the movement of the lever 32 in a direction which causes the said valves to open. The said alined solenoids 112 and 113 have a common reciproeatory core 114, which operates` in the same manner as the solenoid 4C, referred to in our pending application, Serial No. 609,091, and has coupled thereto between the solenoids or magnets 112 and 113 the adjusting-arm 115, which is pivotally connected to the lower end of the controlling-lever 32 below the pivotal support for this lever.

The electric current is supplied to the solenoids 112 and 113 from a dynamo or other suitable source of electrical energy through the main conductors a and l), the main conductor u. havinga common wire connection c with one terminal of each solenoid, while the other conductor b is included in a circuit with the instrument employed for the purpose of reversing the direction of the current, so as to alternately energize the two solenoids. In counection with the instrument for reversing or shifting the current from one solenoid to the other there is employed a current-reversing circuit-closer. (Illustrated in Figs. 3, 6, and 7 of the drawings.) This instrument or device is preferably arranged directly at one side of the scales, as plainly shown in Fig. of the drawings, and essentially comprises a supporting-standard 116, having a foot-plate 117 adjustably mounted on a stationary base 118, which is placed on the same support which holds the scales 1. The foot-plate 117 of the standard 11G slidably rests on the base 118 and is adjusted to a proper position through the medium of the adjusting-screw connection 119 between the foot-plateand base, and the said support-standard 116 of the circuitclosing instrument or device is provided with a horizontal arm 120, carrying at one end a vertically-disposed yoke 121, having at its extremities the screw-collars 122, in which are adjustably fitted the contact screws 123, whose inner pointed ends are normally spaced apart to provide for the play of one end of the movable contact-arm 124. The movable contact-arm 124 is preferably made of a fiat strip or ribbon of steel and is designed to have the free eud thereof work between the points of the contact-screws 123, so as to alternately contact with vsuch screws, and at its end opposite the screws 123 the movable metallic contact-arm 124 is secured to a supportingspindle 125, mounted in suitable bearings126 at the upper end of the standard 11G, and held in its adjusted position by means of the setscrew 127. The manner ofsupporting the metallic contactarm 124I provides means whereby the same can be set to normally rest against the lower contact-screw 123, and the automatic elevation ot' the said contact-arm 124 against the upper contact-screw 123 is provided for through the medium of the swinging magnet 123, preferably of the horseshoe type. The magnet 12S is suspended from the lower end of a supporting-rod 129, the upper end of which supporting-rod is preferably connected to the axle of the main scale-beam 2, as plainly illustrated in Fig. 3 of the drawings, so that the movement of the magnet 128 will be coincidentor coextensive with that of the scale-beam and in unison therewith. By reason of the adjustable support of the circuit-closing instrument or device just described it will be understood that the proper relative adjustment of the contact-arm 124c and the magnet 128 may be secured to suit dilferent weighings.

The circuit-closing instrument or device, which operates in conjunction with the swinging magnet 12S, may be employed alone in connection with the solenoids 112 113 when the current supplied through the conductors ct and b is of low electromotive force; but the instrument referred to is preferably used in connection with the current-reversing relay illustrated in Figs. S and 9 of the drawings. as the interposition of this relay instrument in the circuit prevents a current of high electromotive force from affecting the accuracy of the weighing. The current-reversing relay instrument may be conveniently secured toa shelf or at any other desirable point either remote from or near tothe circuit-closing instrument or device. The relay instrument shown in Figs. 8 and 9 is provided with a base 130, which is secured to the shelf or other support for the instrument and which'base supports thereon a pair of spaced magnets 131 132, with their adjacent core ends in longitudinal alinement to provide for the attraction and repulsion ot' the armature-keeper 133,1itted to the swinging armature 1341, which is arrangedr to play between the two magnets. The armature 134 is loosely pivoted at one end between the oppositely-located bearingscrews 135, fitted in suitable supports at opposite sides of the base 130, and the free end of the armature is provided with a contact 136, designed to play between the inner points ot' the oppositely -located alined contactscrews 137, adjustably mounted in the screwcollars 13S, arranged at opposite ends of a cross-head 139, carried atoiie end of a supceptaclc before the poisnigperiod of the scales porting-arm 110, Vfastened to thcbase 130 and projecting` beyond the same.

Referring to the circuit-wire connections lVhen the poising period arrives,or, in other between the solenoids and the circuitclosing and relay instruments, it will be observed that the solenoid terminals and conductors u and l) are in direct circuit with the relay instrument, while a local circuit is employed in connection with the circuit instrument or i device for reversing the current from the magnet131 to the magnet 132, and vice versa. One of the screw-collars 138 of the relay instrument has a direct wire connection d with 3G will be discharged into the weighing-rcconimences, while the load completed by the drip-stream t'roni the discharge-neck (55.

words, when the scale-beam comes tothe balance-point, the magneti 123 will have passed to a position beyond the zone ot influence for the arm 121, so that the latter will drop in contact with the lower c iitact-scre\v 123. The local circuit 'for the relay will then be completed through the wire i', the magnet 132,

; wire g, battery 111, wire j", and arm 121, thus one terminal ot' the solenoid 113, while the other screw-collar 133 has a direct wire conl nection c with one terminal of the solenoid l 112, while the negative conductor l; is connected with the pivotal support of the armature 131 so as to be in direct connection with the solenoids.

The wiring for the local circuit et the inagenergizingthemagnet132ainl causinga movement of the armature 131 against the contactscrew 137, having the wire connection e therewith. A solenoid-circuit will then be closed 1 through the wire t, armature 131, wire c, so-

lenoid 112, and conductor or wire c. rl`he energization of the solenoid 112 will canse a this armature, thus completing the wiring for movement ot the controlling-lever in a direction for simultaneously closing the disnets 131 and 132 and the circuit-closing instrunicnt or device is as follows: The movable contact-arm 121 has a metallic connection with one terminal ot' a battery-wire f, which the other pole of said battery has connected therewith the battery-wire t, having a coincharge-valves 57 and G7, ioropening the valve.

52, t'or stopping the action oi' the gearing 93 in case the retarding worin or screw is used in conjunction therewith, and also releasing the weighing-wheel'.

connects with one pole of an electric battery 111 or other source of electrical energy, while As already explainethwhen the current used to operate the solenoids 112 and 113 has a low electromotive force the circuit-closing instruthe magnet 123 is lying directly7 above the inel tallic contact-arm 121, and by its attraction for such arm will hold the latter in contact with the upper contact-screw 123, which position of parts causes the local circuit of the relay instrument to traverse the wire 71., niagnet 131, wire g, battery 111, wire f, and movable eontact-arm 121. Fig. 12.) With the local circuit completed through the magnet 131 the magnetization of the latter will cause an attraction of the armature 131 in a direction to bring said armature against the contact-screw 137, having the wire connection (l therewith, thereby closing a solenoid-circuit through the wire l), armature 131, wire d, solenoid 113, and conductor or wire a. The completion otthis circuit eitment shown in Figs. t5 and 7 or in the niodifications of Figs. 1t) and 11 maybe used alone, and in such case the negative conductor I) is connected with the arm 121, while the wires 7L and t' for the contact-screws 123 are respectively connected with the terminals of the solenoids 112 and 113, opposite the terniinals having the wire connections c therewith. (See Fig. 29.) lhese simple circuit-wire connections provide means whereby tlie circuit-closing instrument described in its operation will reverse or shift the current from one solenoid to the other. However, it is quite necessary to use the relay instrument when the current has a high electroinotive force, as it has been i found that the arc formed by breaking the contact between the contact-screws draws or holds back the beam oi' scale mechanism so as to materially atect the accuracy ot the weighing.

This is obvia-ted by introducing the relay instrument, which permits the use (See diagrammatic ergizes the solenoid 113 and causes a tnovement of the controlling-lever 32 in a direction for opening the discharge-valves 57 and (57 of the feeder, so as to permit the weighingreceptacle to take in its load. As previously of a current of higher eleetroinotive force for the solenoids and contines the current of low electroinotive force to the local circuit for operating the magnets 131 and lVhile the form ot circuit-closing instrument or device as shown in Figs. 3, t5, and 7 explained, the contents of the bulli-chamber and 117, mounted on the oppositely-located IOO IIO

standards 1-18, the standard 14S for the contact 146 having the circuit-wire 7i connected therewith and the standard for the contact 147 having the circuit-wire@ connected therewith, while the battery-wire j is connected with the support for the movable contact-arm 142. This contact-arm is provided at one side ot' its pivot with a keeper 14), which comes under the in'lluence of the magnet 125, and with a weight 150, which provides for n ormally moving one ot the contacts 145 against the contact 1417. q

In the modilication of the circuit-closing instrument shown in Fig. 11 of the drawings the same construction is employed as in the form of instrunientshown in Fig. 10, the only dilierence between these two modifications being that the standards 1-18 are of different lengths and are arranged in close relation, so as to dispose the contacts 146 and 147 directly opposite each other with a space therebetween for the play of the single contact-block`1t5a at one end of the movable contact-arm 1&2, the weight 150 in both of the modifications serving to normallyclose the circuit through the contacts 147. 1t will be seen that the saine relation of contacts is preserved in the modi- Iications of Figs. 10 and 11 asin the preferred form of circuit-closing instrument previously described, so the manner in which the local circuit for the relay instrument is controlled is necessarily the same in all forms of the circuit-closing instrument.

The presence ot foreign substances in the material being` weighed frequently results in the overloading of the weighing-receptacle, and in order to prevent the discharge of an overloaded receptacle into the package or receiver placed beneath the discharge-spout 13 the latter is provided with a lateral overloaddischarge extension 151, through which the overloaded contents of the weighing-receptacle are designed to be deflected without passing into the package or receiver beneath the spout 13. .At the point of communication between the spout 13 and its extension 151 is arranged a detlecting-gate 152, hinged at its lower edge, as at 153, at the lower side of the opening between the spout and the extension thereof', and one ot' the hinge extremities of the gate 152 has :fitted thereto a weighted arm 154, which provides tor throwingthe gate 152 across the spout 13 when the gate is released. To provide for normally locking the gate 152 in its closed position within the opening between the spout and its extension, the said gate is provided at one side with a keeper 155, which is engaged by the inner catch end of a pivotal latch-arm 156. The latch-arm 156 is pivoted intermediate of its ends to the spout extension 151 and is provided atils outer end with a keeper 157, arranged adjacent to the core ol a release-magnet 158, included in a circuit with the circuit-closer 159, the arrangement ot said circuit-closer in connection with the scales being shown in Fig. 16 of the drawings. The circuit-closer 159 essentially coml prises a pair of supporting-posts 160 and 161,

the supl'iorting-post 160 carrying a contactscrew 162, and the supporting-post 161 having Fitted thereto one end of the steel springcontact arm 163, the free end of which arm is normally out of contact with the screw 162, said contact-arm being adapted to be influenced by a controlling-magnet 164. The controlling-magnet 161is preferably of the horseshoe type and is suspended at the lower end lof a rod 165, the upper end of which rod is preferably connected with the akle of the scale-beam 2 in the same manner as the supporting-rod 129 for the magnet 128.

The controlling-magnet 16a is arranged at an angle with relation to the controlling-magnet 128 for the current reversing circuitcloser, as shown in Fig. 17, so that it will not come within the zone of intluence for the contact-arm 163 unless the scale-beam rises above its balance-point under the iniiuence of au overloaded bucket within the weighing-receptacle. When this occurs, the magnet 16a will have passed to a position over the arm 163, thereby moving said arm against the contact-screw 162, so as to automatically close the circuit. through the release-magnet158. When this release-magnet is operated independently of any other instrument, a simple local circuit is employed therefor, as shown in diagrammatic Fig. 19. 1n this circuit a battery-wire j leads from one poleot' a battery 166 to a supporting-post 160 for the contact-screw 162, while the wire k, connected to the other pole of the battery, leads to one of the terminals of the release-magnet 15S, the other terminal of which magnet has a wire connection lwith the supporting-post 161 for the contact-arm 168.

Then the release-magnet 158 is energized, the armature latch-arm is attracted toward the magnet, thereby releasing the inner catch end ot said arm from the keeper 155. Thus released the weighted arm 151 swings the gate 152 across the spout 13, thereby deliecting the discharge from the overloaded bucket ot the weighiiig-receptacle through the lateral overload-discharge extension 151 ofthe dischargespout. The automatic resetting of the deiiecting-gate 152 occurs when the controllinglever moves in a direction to open the discharge-val ves 57 and 67 of the feeder or feeding mechanism, and to secure this result a resetting-rod 167 is employed. This resettingarm is pivotally connected at one end to the controlling-lever 32 below its pivot7 and near its opposite end the said rod 167 is provided at its lower side with a shoulder 16S, adapted to engage against the pin 169, iitted in the upper end of a rock-arm 170, secured fast at its lower end to one ot' the hinge extremities of the gat-e 152. As the lower portion of the lever 32, 'below its pivot 33, moves in an outward direction away from the overload-discharge attachment, the engagement of the. resetting-rod 167 with the rock-arm 170 will provide for throwing the gat-e 152 back within IOO IIO

the opening between the spout 13 and its extension 151, which movement oi tite gate 152 causes tite keeperl thereof to atttomat icaily engage with the inner catch end of tite latcharm 1515.

The overload-ti ischarge attachtnen tj ust described, which provides means for detiecting the overload through a separate channel or spout titan that for correct weighings, is especially vaittabie in cases where sticks, straws, and the like clog or catch in tite valves, and thereby produce over-weights, which ordinariiy wottid continue todisci'targe through the cotntnon discharge-spout into tite package or receiver, and in connection with the overload-discharge attaclnuent referred toit is desirable to include in the local circuitfor the release-magnet. of the overload-discharge attachmentacircuit-cut-olinstrument which shall provide means for cutting out the circuit connections with tite solettoid, which opens the valves ot' tite t'eeder, and thereby locking the machine or at least stopping tite operation thereol' until the parts have heen reati'iusted. This circuit cut-olii` or stop iustrument isiiiustrated in Fig. 1S ot the drawings and is preferably mountedwithin the sante case or box 171 which houses the current-controliing` device or potent iaiindicator, which will be hereinafter particularly referred to. The case or box 171, containing tite iustrtttnents referred to, may be placed on a shelf or any other convenient support, andthe said circuit cutfot't or stop instrument essentially comprises a pair ot contactposts172 and 1735, spaced a distance aparty and having respectively titted to one end thereofthecontactpiates171 and 175, which contactplates are adapted to be respectitf'ely engaged by the opposite ends ot' tite pivotal armature contact-arm 17o'. r1"he pivotal armature contact-artn 17ol is pivotaily mounted intertnediate of its ends, as at 177,011 a supporting-post 17S, arranged intermediate tite contact-posts 172 and17ia, and is provided near one end with a keeper 170, located adjacent tothe core ot' an electrocontrolling-inagnet 150. rPhe end of tite armature contactarnt 17h' Opposite the magnet 150 is normally held in contact with tite plate 175 by means ot' tite pressure-spring 1S1, secured t'ast at one ettd to tite pivotal support ot' tite armature 1715 and bearing at its free end on tite which is normally out ot' contact with the plate 17e is adapted to be engaged by the shouldered end 162 ol` aspring-act uated catchartn lbf-5. This catch-arm 183 is pivoted at one end to a tixed point of support, asat lSt, and has arranged at one side thereol" a spring 185, whose tension normally presses said catch-arm against the adjacent end` ot' the armature 17o; but normally tite end of the at'- ntature next to tite catch-arm 183 lies at one side of the shoulder 182, and therefore out of engagement therewith.

The dia-grain of the circuit for the circuit cut-olf or stop instrument just described is shown in tiiagrammatic Fig. 2O ot` the drawings, and by ret'erence to this ligure oi' the drawings it will he observed that the negative conductor has in addition to its com nection with tite armature 131 separate tet'- minai conuectionsb' and U3, respectively, with tite pivotal supportt'orthe armature 17o' and with tite contact-plate 175, while the opposite contactpiate 171 ltas a wire connection m with the wire e, which is connected with oneof the terminals ot' the solenoid 112. The electrocont'rolling-magnet 18u for tite armature 176 has its terminalsincluded in series with the circuit-wirel ofthe local circuit for tite'release-magnet 15H ol tite ovcritntdalischarge at tachment. it will he observed that tite separate local circuits lor tite current reversing or shifting it'tstrument's used in connection with tite soienoids 112 and 11S operate entirely independent ot' the circttit-wirc connections with tite overioad-discharge attachment and with tite circuit cut-oil or stop instrument, the operation being the sante as described in connection with diagrammatic Fig. 12; but when tite magnet 161 cutiies int-O play attd raises tite contact-arm 11355 against tite contact-screw 162 a circuit will be simttitaneousiy closed through tite release-magnet 15S for tite overload-discharge attachment and through the controlling-magnet 1S() for tite armature 17t1ot`the circuit-cut-oii instrument. riherei'ore at tite momentthe deflecting-gate 15.2 is dropped in tite manner previously explained one end oi tite armature 17u will be drawn against. the contact-plate 171and tite shouldered end ot'thc catcl't-arm 1821 will spring into engagement ol such end ot tite armature 17h' atui lock tite same in contact with tite plate 171. With the parts thus positioned tite current passes through tite negative conductor i), the connection Ii' with tite artnature 17o, the contact 174, tite wire connection vnt, tite wire e, the solenoid 112, and tite positive conductor (t, thereby ctttting out tite circuit from tite solenoid 1123I and keeping tite solenoid 112 energized, so that tite discharge-valves ot' tite l'eeder will beheld locked in their closed positions untii the catch 183 is released i'ront tite armature 17h and tite circuit restored toits usuaichannel through tite wire b, its terminal connections o' and i/J, and tite armature 1310i? tite armature, and the end of said armature-arm cut-rent-reversing relay.

1n the operation ot the iterein-d escrihed machine we have t'ound that a variation beyond certain limits in the current supplied to tite machine materially atiects tite accuracy of tite weighings, so in ortier to provide means ior automatically stopping tite operation of tite machine when tite current rises ahoveor fails below apredetermined degree the current-con trolling device or potential-indicator illustrated in Fig. 1S ot' tite drawings is employed. Thecurrent-eontrollinginstrument embodies improvements that are especially adapted for use in connection with the type IOO IIO

o1 voltmeter or poten tial-indicator illustrated in Fig. 18 of the drawings, which instrument embodies a pair of duplicare segmental dials 186 and 186 and a pair of swinging indexarms 1.87 and 187, respectively, for each of the dials, said dials being divided to read volts or parts of a volt and both having the same readings thereon, andwhile the duplication ot' the dials and index-arms is not absolutely necessary still it is desirable in order that the adjustable circuit-closers may be used in connection with only one. of the dials and index-arms,t hereby leaving the other dial and index-arm fully exposed for the reading. The oppositely-located index-arms 187 and 187a are pivotally mounted in suitable brackets 188, secured to the base ofthe case or box 171, andthe segmental heel ends 189 of the indexarms are connected to a common solenoidcore 190, which is controlled in its movements by the solenoid 191, having separate wire connections 'a and o, respectively, with the main conductors c and l), so that tl uctuations in the strength ofthe current passingth rough the said conductors will ati'ect the solenoid and cause a movement of the index-arms over the dials to indicate the readings. The indexarm 187 carries at one side of its pivotal support a counterbalance weight 300, which serves to restore the mechanism to its initial or lio-current position. A

The index-arms 187 and 187 are connected for movement in unison by the connectingrod 192, and for the purpose ot' carrying out the present invention there is employed in connection with the dial 1.86 and the indexarm 187 a pair ofadjustable circuit-closets` 193. (Illustrated in detail in Fig. 22 oi the drawings.) Each of the adjustable circuit-closers 191:1 is provided with a movable base 19a, pivotally connected at one end with the axis of the index-arm 187, so as to be capable o1 an axial or swinging adjustment, and arising from said adjustable base 19% is a pair of oppositely-located supporting-posts195 and 196, the supporting-post 195 carrying a contactscrew 197 and the supporting-post 196 carrying a movable contact-arm 198, whose free end is normally out ot contact with the screw 197 and is adapted to be elevated against said contact or contact-screw 197 by means of the permanent magnet 199,1itted to the index-arm 187. Each ot' the adjustable circuit-closing devices is further provided at one end ofthe Supporting-post1.96 with a pointer-linger 200, which lies above the contact-arm 198 and overhangs the segmental dial or dial-plate 186.

The supporti ng-post's 1 95, carrying the contact-screws 1,97 ot' both of the adjustable circuit-closers, have a common circuit-wire connection p therewith, while the supportingposts 196, carrying the contact-arms 198 of said circuit-closets, have a common circuitwire connection q therewith, and these circuit-wire connections are connected in series with the magnets 158 and 180, as plainly illustrated in diagrammatic Fig. 21 of the drawings. These circuit connections between the current-eontrolling instrument andthe magnets 158 and 180 are entirely independent ot' the circuit-Wire connections between these magnetsand the circuit-closer 159, which is brought into action by an overload in the weighing-receptacle. It will thus be seen that the magnets 158 and 180, as well as the battery 166, have independent wire connections with the circuit-closer 159, as well as with the current-controlling` instrument or potentialindicator.

Assuming that it is desired to limit the variation in potential between ninety and one hundred and nine volts, one of the adjustable circuit-closets 198 is adjusted to a position so that its pointer 200 indicates 89 volts on the dial or dial-plate 186, while the other instrument of the pair is adjusted to a position to bring its pointer to indicate 110 volts on the same dialordial-plate. It' the current falls below ninety volts or rises above one hundred and nine volts, the permanent magnet 199 on the index-arm 187 will lift the contact-arm 198 of the circuit-closing instrument over which it passes against the contact-screw 197, thereby closing a local circuit through the release-magnet 158, the battery 166, and the magnet 180, and the completion of this circuit causes the said release-magnet and controlling-magnetlSO to operate in the manner previously described, the energization of the magnet 180 causing the armature 176 to move to a position which cuts out the current to the solenoid 113 and the current-reversing instrument and maintains the circuit through the solenoid 112, which keeps the dischargevalves ot' the feeder closed until the catcharm 183 is released from the armature 176 and the current is restored through the usual circuit.

As already explained, the magnets 158 and 180 have independent wire connections with the circuit-closer 159, set into action by an overload, as well as independent wire connections with the current-controlling instrument or potential-indicator5 but it should be explained at this point that the essential purpose of the curi-ent-controlling instrument or potential-indicator is to automatically stop the operation of the machine when the current rises above or falls below a predetermined degree, but said instrumentis included in circuit with the magnet 158, so that simultaneously with the locking of the machine the inaccurately-weighed load may be deflected by the overload-discharge attachment y outside of the plane of the passage for correct weighings. The overload-discharge attachment may be thus brought into play by the action of the curient-controlling instrument or potential-indicator, as well as by the action of the circuit-closer 159.

As already explained, the improvements which we claim in connection with the current-controlling instrument are the adjustable circuit-closing devices, the manner of IIO mount-ing these devices, and connecting` the same with the other electrical parts ol the machine, as it is not our purpose to restrict our application to any particular forni of voltmeter or potential-indicator, as if it should be necessary to regulate the current in amperes an amineter may be substituted for the i voltmetershown or the permanent magnet 199 maybe attached to the index arm or pointer l of any suitable counting mechanism and the circuit-closing device adjusted in connection with the dial, so that the machine can be stopped after a certain number of weighings.

Vhile the preferred construction ot the;

machine has been described, it will be understood that several modifications of the hopper-body 3l may be resorted to without del parting from the spirit or principle ot the i present invention, and one ot these modificai and Q5 of pair of bulli-chambers 3G, arranged side by l side, such construction being used when it is desired to weigh several sizes of packages on one machine, and it will ofcourse be understood thatl this idea may be extended by using the upright bulli-chambers in couples or in groups and in connection with one or more drip-chambers. However,in the modification referred to a single drip-chamber G1 is employed, which drip-chamber is provided with the sameinterior parts and the samedischargevalve mechanism as the drip-chamber illusof these bulli-chambers is provided at its upper end with a separate supply-eompartment aflhaving at its lower side a feed-opening 51, covered and uncovered by a eut-ott valve 52, secured to theinuer end ot' a valverod 201, the outer end ot which valve-rod is pivotally connected to the upper end of a lever 202, the lower end of which lever is conneoted with the valve-rod for the lower cutoff-valve plate 201, designed to cover and uncover-'the d ischarge-openine` 0; at the lower end ot the bulk-chamber Sti". The valverods 201 and 203 for the valves ot both of the bulli-chambers 3U are coupled together, so as to move in unison with the lever 02, which is pivotally supported intermediate its ends and has connected thereto at one side ot the pivot the adjusting-rod GO, which connects 'lhe movement In the modification shown in Figs. 23, 2l,

and 25 the capacity of each bulli-chamber is varied by means of an adjustable front wall or plate i205, having itted to the side edges cassetthereof slide-bars 20G, working in slidcways Q07, formed at opposite sides of the bulkchamber 2315"", and said sides of the bulli-chamber are extended forward to form a front extension, within which the front wall or plate 205 works, the adjustment ot' said plate being secured by means of au adjustingescrew 20S, working in a threaded opening formed in a cross-bar 209, connecting the front edges of the extensions ot the side plates. The adjustable l'ront wall or plate 205 has pivoted to its lower edge the upper edge of a pivotal t deilecting-plate Qld, whose lower edge normally rests and works upon the inclined botl tom plate 211 ol the chamber 3G, which bottom plate, in connection with the plate 210, provides tor detlecting` the bull; o1' material through the bottom discharge-opening (521K In Fig. 2li is shown a modification ot the hopper-body similar in all respects to the modiiieation shown in Figs. 23, 21, and 95 t with the exception ol' the means for varying the size or capacity of the bullechamber 315, and this is accomplished in the construction shown in Fig. 26 through the medium of the hinged front plates 212 and 213, which plates correspond in adjustment and function to the regulating-plates 1l and 12. (Shown in Fig. fl of the drawings.) The plate 21:2, which is g outermost, is hinged at its. lower edge, as at 211, to the front side of the chamber 315, and the innermost plate 213 is hinged at its upper edge to the outer plate 212 near the upper edge of the latter, and said outer plate 212 has projected inwardly from the side edges thereof the wing-plates 2 l5,whieh wing-plates iorm alront extension for the bulk-chamber 313 and confine therebetween the inner plate l 213, which is adjusted by means ot the adjusting-serew 2lb', mounted in the outerplate 212. The latter plate is adjusted in unison with the plate 2123 by means of the main adjusting-screw 217, working through the plate 212 at its upper edge and engaging with the top portion of the chamber 3U.

A further modification of the bulli-chatnbcr, showing diit'erent means Vfor varying the size or capacita'v thereof', is illustrated in Figs. 2T and 2S ot' the drawings. in this modificai tion the bulli-chamber is shown used independently without thc separate drip-cham ber and is provided at its front side with an adjustable lront wall 21S, havingl inwardlyprojecting wingplates 2li), working within the opposite sides ot the bulk-chamber and carrying obliquely-disposed slide-bars 220, working in inclined slide grooves or ways 221, formed at opposite sides ot' the bulli-chamber. l 'lhc said adjustable front wall 21S, including its side wingplates 210, are designed to slide i at their lower ends directly on the inclined bottom plate 21.1 of the bulk-chamber, so as to close in the bottom portion ot' the bull;- chamber at one side ot' the bottom dischargeopening G2, and at its upper edge the said front wall 21S has hinged thereto a segmental closure-hood whose sector-shaped wing- 

